Abstract

As part of the Quantifying ULIRG AGN-driven Outflows (QUADROS) project to quantify the impact of active galactic nuclei (AGN)-driven outflows in rapidly evolving galaxies in the local Universe, we present observations of eight nearby ultraluminous infrared galaxies (ULIRGs, 0.04 < z < 0.2) taken with the Intermediate-dispersion Spectrograph and Imaging System on the William Herschel Telescope (WHT), and also summarize the results of the project as a whole. Consistent with Rose et al. ( Many of the outflow regions are also significantly reddened (median E(B -V) 0.5). Assuming that the deprojected outflow velocities are represented by the fifth percentile velocities (v 05 ) of the broad, blueshifted components of [O III] 5007, we calculate relatively modest mass outflow rates (0.1 < <20 M yr -1 , median 2M yr -1 ), and find kinetic powers as a fraction of the AGN bolometric luminosity ( = /L bol )i n the range 0.02 < <3 per cent (median 0.3 per cent). The latter estimates are in line with the predictions of multi-stage outflow models, or single-stage models in which only a modest fraction of the initial kinetic power of the inner disc winds is transferred to the larger scale outflows. Considering the QUADROS sample as a whole, we find no clear evidence for correlations between the properties of the outflows and the bolometric luminosities of the AGN, albeit based on a sample that covers a relatively small range in L bol . Overall, our results suggest that there is a significant intrinsic scatter in outflow properties of ULIRGs for a given AGN luminosity.